Multi-Task Adaptive Gating Network for Trajectory Distilled Control Prediction

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Volume Title

A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä

Date

2024-05-01

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Mcode

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en

Pages

8

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IEEE Robotics and Automation Letters, Volume 9, issue 5, pp. 4862-4869

Abstract

End-to-end autonomous driving is often categorized based on output into trajectory prediction or control prediction. Each type of approach provides benefits in different contexts, resulting in recent studies on how to combine them. However, the current proposals are based on heuristic choices that only partially capture the complexities of varying driving conditions. How to best fuse these sources of information remains an open research question. To address this, we introduce MAGNet, a Multi-Task Adaptive Gating Network for Trajectory Distilled Control Prediction. This framework employs a multi-task learning strategy to combine trajectory and direct control prediction. Our key insight is to design a gating network that learns how to optimally combine the outputs of trajectory and control predictions in each situation. Using the CARLA simulator, we evaluate MAGNet in closed-loop settings with challenging scenarios. Results show that MAGNet outperforms the state-of-the-art on two publicly available CARLA benchmarks, Town05 Long and Longest6.

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Keywords

Adaptation models, Autonomous Agents, Autonomous vehicles, End-to-End Autonomous Driving, Gating Network, Imitation Learning, Intelligent Transportation Systems, Magnetic separation, Multitasking, Task analysis, Trajectory, Vectors, end-to-end autonomous driving, intelligent transportation systems, imitation learning, Autonomous agents, gating network

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Citation

Azam, S & Kyrki, V 2024, ' Multi-Task Adaptive Gating Network for Trajectory Distilled Control Prediction ', IEEE Robotics and Automation Letters, vol. 9, no. 5, pp. 4862-4869 . https://doi.org/10.1109/LRA.2024.3385695